HyperLight is the leading provider of end-to-end Thin-Film Lithium Niobate (TFLN) photonic integrated circuits (PIC) solutions. Our products offer exceptional electro-optic bandwidth, low energy consumption, and volume production capability, giving our customers a significant competitive advantage across a diverse range of market sectors.
 
From high-volume applications like telecom and datacom, to performance-driven applications such as radio-over-fiber, test and measurement, and quantum information processing, our product portfolio delivers outstanding performance and reliability. Contact us today to learn more about how HyperLight’s TFLN PICs can revolutionize your business.

Transmitter PIC Engine for Optical Communication

HyperLight’s TFLN transmitter (Tx) photonic integrated circuits (PICs) enable unprecedented speed and energy efficiency for data center and telecom components and system integrators. With a simple drop-in replacement of existing silicon photonics or InP Tx solutions, our TFLN Tx PICs achieve up to 40% power savings at the system level. Our patented TFLN PIC designs enable simultaneous CMOS-level voltage, 200 GBd symbol rate, and low insertion loss at high production volumes, giving our customers faster data transfer rates and lower power consumption. Ideal for data center interconnects, metro networks, and long-haul transmissions, our TFLN Tx PICs provide optimal performance, efficiency, and cost-effectiveness.

 

Key Features:
  • Reliable and Qualified volume production
  • Patented ultralow drive voltage design
  • DPIQ coherent Tx Engine
  • IMDD PSM Tx Engine
  • IMDD CWDM Tx Engine coming soon
  • CMOS-level drive voltage
  • 110 GHz analog bandwidth and beyond (200+ GBd)
  • Low total insertion loss
  • Robust interface to single-mode-fibers
  • Know-good-dies (KGD) delivery
  • Strong end-to-end customer support from concept to KGD
Applications:
  • Telecom (130 GBd, 200 GBd)
  • Datacom (100 Gbps/Lane, 200 Gbps/Lane)

110 GHz Low Vπ Electro-Optic Modulators

HyperLight’s compact electro-optic modulators are the industry’s first commercial-grade solution designed to provide operational bandwidths beyond 110 GHz at the package level. Our cutting-edge TFLN packaged electro-optic modulators boast operational bandwidths exceeding 110 GHz with exceptionally low Vπ and insertion loss. With low Vπ, low insertion loss, and high optical power handling capability these devices are ideal for applications that require high electro-optic conversion efficiency.
 
Key Features:
  • Ultra-High bandwidth modulation (>100 GHz bandwidth)
  • Record low half-wave voltage
  • Compact footprint
  • High extinction ratio
  • Stable DC biasing
  • High optical and RF power handling
  • Reliable material and operation
  • W (1.0 mm) RF Connector, PM fibers with FC/APC connectors
Applications:
  • Ultrawide band electro-optic conversion
  • Reference transmitters for test and measurement
  • Radio-over-fiber and satellite links
  • Sensing and metrology
  • Electro-optic frequency comb
  • Mode-locking and laser frequency stabilization
  • Research and Development

Application Specific PIC through MPW

HyperLight provides end-to-end high-performance application-specific PIC solutions with fast turn-around time, through MPW and dedicated wafer runs. We work closely with our customers from conceptualization, design, prototyping, to transferring to volume production. Backed by expertise in both high volume production and low volume prototyping, HyperLight’s custom PICs provide a seamless development path for our customers to build innovative PIC solutions for their applications from ideas to products.
 
Key Features:
  • Reliable production-grade Foundry MPW
  • Cost efficient and short loop option for prototype-grade MPW
  • Low optical loss
  • Low coupling loss
  • Reference high-speed RF design for 100 GHz EO modulation
  • Fast turn-around time
  • Custom design options
  • Wafer-scale measurement and testing options
  • PDK/DRC support
Applications:
  • Quantum photonics
  • AR/VR
  • Sensing and Navigation
  • Emerging optical communication methods
  • Visible photonics
  • Research and Development
  • Prototyping
  • Technology demonstration

Make an Electro-optic Connection

Ask us about our technology, or learn more about our growing team.